The present invention relates generally to medical devices and methods. More specifically, the present invention relates to medical devices that provide access to a target site of a patient for medical procedures, as well as methods of using such devices, and kits or packages containing such devices.
In order to perform a surgical procedure on a target structure of a patient, such as when accessing vertebral regions in a patient's body, it is often necessary or at least desirable to dilate the tissue to provide access to the target structure. A common method of dilating tissue in connection with such procedures employs multiple separate cannula dilators. Typically, a set of dilators having different diameters will be used. For example, a first dilator of a relatively small outer diameter will be inserted through the patient's skin toward a target structure. A second cannula having an inner diameter substantially equal to the outer diameter of the first dilator will be placed over the first dilator. A third cannula having an inner diameter substantially equal to the outer diameter of the second cannula will be placed over the second cannula. This stepwise dilation of tissue proceeds until an adequate access path is provided to the target structure.
This method however requires substantial amounts of time in terms of requiring serial steps of dilating the tissue and poses significant risks in terms of increased possibilities that the dilators may be misplaced, unorganized, become contaminated, and the like.
Thus, there remains a need for tissue dilation systems that are easy to use and do not substantially damage tissue that has been dilated.
Tissue dilation systems are described which effectively dilate body tissue or tissues of a patient to provide access to a target structure in a patient so that a physician can perform a surgical or medical procedure of the target structure. The present systems employ an expandable member that can be inserted into body tissue in an un-fully expanded configuration, and that can dilate the surrounding tissue by being deployed into a fully expanded configuration. The tissue is maintained in a dilated configuration by placement of a sleeve over the expanded member in the patient's body. Removal of the expanded member from the sleeve provides access for a physician to the target structure. The present systems can be used to dilate tissue in connection with medical procedures involving bones, including vertebrae, the heart, kidneys, lungs, liver, stomach, and other organ and body tissues.
In one embodiment, a tissue dilation system comprises a tissue penetrating member which includes an expandable body portion, and a sleeve including a lumen dimensioned to accommodate the expandable body portion. The expandable body portion is deployable from a first configuration suitable for insertion through a skin region, such as through the skin and fascia, of a patient toward a target structure located in the patient, to a fully expanded second configuration effective in dilating tissue located around the body portion and between the skin region and the target structure when the tissue penetrating member is located in the patient. The sleeve is configured to be placed over the expanded body portion in a fully expanded configuration, and provides access to the target structure from the skin region.
In one specific embodiment, the tissue penetrating member of the foregoing system further includes a substantially rigid wire extending through the expandable body portion to the distal end of the tissue penetrating member. The expandable body portion comprises an inflatable balloon circumscribing a portion of the length of the wire. The inflatable balloon can circumscribe a minor portion, a major portion, or the entire length of the wire. The sleeve has a length effective in providing an access path from the skin region to a bony target surface, such as a vertebra of the patient.
A method of providing access to a target structure in a patient, comprises inserting an expandable body portion of a tissue penetrating member in a first configuration through a skin region into tissue of a patient; deploying the expandable body portion into a fully expanded second configuration to dilate the tissue surrounding the body portion; placing a sleeve over the expanded body portion in the tissue of the patient to provide access to the target structure from the skin region; and removing the tissue penetrating member from the sleeve. The tissue penetrating member can be removed in either an expanded configuration, including fully and partially expanded configurations, or an unexpanded configuration. The body portion can be expanded by inflating the body portion, or other wise mechanically urging the body portion into an expanded configuration.
Packages, such as kits and the like, may comprise one or more of the tissue penetrating members and/or sleeves in a variety of configurations, as described herein.
Any feature or combination of features described herein are included within the scope of the present invention provided that the features included in any such combination are not mutually inconsistent as will be apparent from the context, this specification, and the knowledge of one of ordinary skill in the art. In addition, any feature or combination of features may be specifically excluded from any embodiment of the present invention. Additional advantages and aspects of the present invention are apparent in the following detailed description, drawings, and claims.
A tissue dilation system in accordance with the disclosure herein comprises a tissue penetrating member and a sleeve that is structured, such as sized and shaped, to be placed over the tissue penetrating member. The tissue penetrating member of the present systems is structured to be inserted through the skin of a patient toward a target surface. In the illustrated embodiments described herein, the tissue penetrating member is used in conjunction with medical procedures of bony structures, such as vertebrae of the patient. However, the present systems can be effectively used to dilate tissue and provide access to any target structure from a skin surface of the patient. For example, the present systems can be used to dilate tissue and provide access to the heart, kidneys, liver, stomach, and other organs of the body.
When the tissue penetrating member is placed at a desired position in the patient's body, a portion of the tissue penetrating member is expanded to dilate the tissue surrounding the tissue penetrating member. The sleeve is then placed around the expanded portion of the tissue penetrating member in the patient's body. After removal of the tissue penetrating member from the sleeve, the sleeve effectively provides an access path to the target structure of the patient. Using this access path, a physician can operate or perform a surgical or medical procedure on the target structure. The present systems are easy to operate, provide relatively quick access to desired target structures relative to existing methods, and provide little damage to tissue in proximity to the target structure. The present systems are effective in dilating tissue without cutting the tissue.
Reference will now be made in detail to the presently preferred embodiments of the invention, examples of which are illustrated in the accompanying drawings. Wherever possible, the same or similar reference numbers are used in the drawings and the description to refer to the same or like parts. It should be noted that the drawings are in simplified form and are not to precise scale. In reference to the disclosure herein, for purposes of convenience and clarity only, directional terms, such as, top, bottom, left, right, up, down, over, above, below, beneath, rear, front, backward, forward, distal and proximal are used with respect to the accompanying drawings. Such directional terms should not be construed to limit the scope of the invention in any manner.
Although the disclosure herein refers to certain illustrated embodiments, it is to be understood that these embodiments are presented by way of example and not by way of limitation. The intent of the following detailed description, although discussing exemplary embodiments, is to be construed to cover all modifications, alternatives, and equivalents of the embodiments as may fall within the spirit and scope of the invention as defined by the appended claims.
As shown in
The sleeve 14 is illustrated as including a body 28 and having a distal end region 30 and a proximal end 34. The distal end region 30 includes a chamfered distal end edge 32. The proximal end region 34 includes an outwardly extending flange element 38. The body 28 of the sleeve 14 includes a lumen 36 extending the length of the body. The sleeve may be understood to be a cannula or a dilator. The inner diameter of the sleeve 14 (i.e., the diameter of the lumen) is substantially equal to the outer diameter of the body portion 16 in a fully expanded configuration. For example, the lumen diameter may be precisely equal to the maximum diameter of the body portion 16, or the lumen diameter may be slightly greater than the maximum diameter of the body portion 16 in the fully expanded configuration. The sleeve 14 is dimensioned to be slidably placed over the fully expanded body portion 16 without substantially engaging or interfering with the body portion 16.
As shown in
Thus, the present tissue dilation system 10 comprises a tissue penetrating member 12, which includes an expandable body portion 16, and a sleeve 14, which includes a lumen 36 that is dimensioned to accommodate the body portion of the tissue penetrating member in its fully expanded configuration. As discussed herein, the expandable body portion 16 is deployable from a first configuration, such as an unexpanded configuration, to a fully expanded second configuration. In the first configuration, the expandable body portion 16 is suitable for insertion through a skin region of a patient toward a target structure in the patient. As used herein, a skin region is understood refers to a portion of skin of a patient, and can include the fascia underlying the skin. The tissue penetrating member 12 can be inserted through an incision in the skin region, such as an incision formed in the skin and underlying fascia, or the tissue penetrating member 12 can be directly inserted through an uncut skin region. In the second configuration, the expandable body portion 16 dilates the tissue located around the body portion. When the tissue penetrating member 12 is removed from the sleeve 14, access from the skin region to the target structure can be obtained.
The expandable body portion 16 of the tissue penetrating member 12 is illustrated in an unexpanded configuration in
As shown in
As shown in
Thus, as shown in
Certain embodiments of the present tissue penetrating members may comprise an inflatable balloon, as described herein. Some embodiments may comprise a non-compliant balloon, other embodiments may comprise a semi-compliant balloon, and other embodiments may comprise a fully compliant balloon. Balloon compliance describes the degree to which the balloon will inflate as pressure inside the balloon increases. These types of balloons of other medical devices are understood by persons of ordinary skill in the art. Thus, the present systems may comprise a balloon having a single maximum diameter when inflated. Or, the present systems may comprise a balloon that has a variable maximum diameter that is related to the amount of pressure used to inflate the balloon. For example, one system may comprise a balloon that when fully expanded has a maximum diameter of about 14 mm. Another system may comprise a balloon that has a maximum diameter of about 14 mm when a first amount of pressure is used to inflate the balloon, and a second maximum diameter of about 18 mm when a second amount of pressure is applied to inflate the balloon. In reference to the embodiments illustrated in
As shown in
Certain embodiments of the present systems include a sleeve 16 that has a body 28 having a length substantially equal to the distance from the skin region to the target structure. In other words, the sleeve 16 includes a body 28 that extends substantially from the target structure to the skin surface of the patient. This is in contrast to cardiovascular devices, such as stents, that may be inserted in a blood vessel over an angioplasty balloon. Such cardiovascular devices do not have a length that extends from the target surface to the skin region or skin surface of a patient. In addition, or alternatively, the sleeves of the present systems may be longer than the skin to target structure distance.
The sleeve 14 of the present systems is formed of a substantially rigid material, such as hardened plastic materials and the like. By using a substantially rigid material, the sleeve 14 can maintain the surrounding tissue in a dilated configuration. In other words, the surrounding tissue does not noticeably constrict the sleeve and thereby reduce access to the target structure. In addition, the sleeve 14 is substantially smooth. For example, the sleeve 14 does not include surface irregularities that may damage the surrounding body tissue or interfere with the movement between the sleeve 14 and the tissue penetrating member 12. In certain embodiments, the inner wall of the lumen 36 or the outer surface of the body portion 16, or both may include a lubricant to reduce potential negative interactions between the sleeve and the tissue penetrating member.
Thus, in at least one specific embodiment, such as an embodiment that is effective to provide tissue dilation of tissue in proximity to a bony surface, a tissue dilation system comprises an tissue penetrating member and a sleeve, as described herein. The tissue penetrating member includes a substantially rigid wire extending through the expandable body portion to the distal end of the tissue penetrating member, and the expandable body portion comprises an inflatable balloon circumscribing a portion of the length of the wire. The sleeve of the system has a length effective in providing an access path from the skin region to a bony target surface, such as a vertebra of the patient.
An example of such an embodiment is illustrated in use in
A method of using the present systems is illustrated in the flow chart of
Optionally, the foregoing method may comprise a step of making an incision in the skin region of the patient before inserting the tissue penetrating member. The incision can be made using any conventional technique. In certain situations, the skin and fascia will be cut to provide direct access to the underlying muscle and/or tissue.
As discussed herein, the present systems may comprise an expandable body portion that is inflatable by administration of a fluid, such as a gas or liquid. Thus, the foregoing method may comprise a step of directing fluid into the inflatable body portion to deploy the body portion into the expanded configuration. As indicated herein, in such situations, the body portion may comprise an inflatable balloon.
As discussed herein, the tissue penetrating member can be removed from the sleeve in a fully expanded configuration. However, the tissue penetrating member can also be urged into an unexpanded configuration before removal from the sleeve. When the body portion comprises an inflatable balloon, the method may comprise deflating the balloon before removal from the sleeve.
The present invention also relates to packages, containers, or kits comprising the present systems. For purposes of convenience, the foregoing will be collectively referred to as packages. The packages may also include other elements that may be useful in using the present tissue dilation systems. For example, the packages may include instructions for using the systems. The instructions may include a description of the methods described herein. Or, the packages may comprise other surgical or medical items, including a fluid delivery device(s), such as an indeflator or syringe, as described herein. For example, the packages may comprise one or more bone fixation devices, including the devices disclosed in U.S. Pat. Nos. 6,685,706; 6,648,890; 6,632,224; 6,511,481; and 6,348,053, and U.S. Pat. Pub. Nos. 20050033289; 20040260297; 20040260289; 20040199165; 20040199162; 20040181222; 20040138665; 20040127906; 20040106925; 20040010257; 20030097132; 20030069582; 20020143335; 20020143334; 20020143333; 20010049530; and 20010049529.
As shown in
Another package 52 is shown in
Another package, or article, may comprise individually packaged tissue penetrating members and a plurality of packages of sleeves having different lengths, each sleeve being provided in a single package. Such packages containing the sleeves or tissue penetrating members may be sealed to maintain the devices in sterile conditions. These tissue penetrating members may have one or more markings indicating a desirable length of sleeve to be used in combination with the tissue penetrating member. Thus, such packages or articles may be effective in permitting a user to select a single tissue penetrating member, and a single sleeve of a desired length from among a plurality of other sleeves.
In view of the disclosure herein, it can be understood that the present tissue dilation systems comprise a tissue penetrating member which has an expandable portion, such as an inflatable portion, that can dilate tissue in a patient's body once that portion is placed in the tissue, and a sleeve to retain the tissue in a dilated configuration. It is desirable that the diameter of the access path through the dilated tissue does not substantially decrease towards the target structure. In other words, it is desirable that the diameter of the access path remain substantially constant from the skin surface to the target structure, or that the diameter of the access path increases near the target structure. One object of the present systems is to reduce the distance from the target structure to the maximum diameter of the access path or the maximum diameter of the tissue penetrating member. Another object may be to increase or maximize the working area near the target structure by providing a greater dilation at the distal end of the tissue penetrating member and/or sleeve relative to more proximal regions of the tissue penetrating member and/or sleeve. Thus, several additional embodiments of the present tissue penetrating members and sleeves are described herein.
In short, embodiments such as those illustrated in
The present tissue penetrating members may comprise an expandable body portion that have varying maximum diameters along the length of the expandable body portion. For example, the tissue penetrating members may comprise a varying diameter balloon that has a diameter that varies along the length of the balloon. One example of a varying diameter expandable body portion is illustrated in
Balloons having flared or enlarged distal end regions may be formed of different materials along the length of the balloon. For example, a region of the balloon proximal to the enlarged region may comprise a material having a single maximum expansion size, and the enlarged region may comprise a material having a dual maximum expansion size. Thus, upon application of a given amount of pressure, such a balloon can expand to the maximum size of the more proximal region, and upon further application of an additional amount of pressure, the distal end region can expand to the second maximum expansion size without changing the maximum expansion size of the more proximal region of the balloon.
An embodiment of a tissue penetrating member having a non-tapered expandable body portion is shown in
In addition to using a fluid to expand the expandable body portion of the present tissue penetrating members, other embodiments may use different mechanisms for deploying the body portion from a first configuration to a fully expanded second configuration. For example, as shown in
Another embodiment of the tissue penetrating member may include a coil element 617 shown in the expandable body portion 616 in
The present systems may also comprise sleeves that can take advantage of the flared or altered dilation obtained with the tissue penetrating members. For example, as shown in
Sleeves having one or more slits may also include a material effective in reducing movement of dilated tissue into the interior of the sleeve. Such materials may be expandable and or stretchable. The materials may be provided as a coating over the sleeve, or may be provided as a layer extending between sleeve portions on either side of a slit. For example, the materials may be provided as a biocompatible elastic coating over the distal end of the sleeve, or may be provided as a webbing-like structure coupled to each side of the sleeve portion defining a slit. The material may be porous or non-porous.
Another embodiment of the present systems comprises a collapsible sleeve 314, as shown in
The present systems may also be used to deliver a medication or pharmaceutical composition to the surrounding tissue. For example, the tissue penetrating member and/or sleeve may include one or more ports that can pass a substance to the tissue. As shown in
As shown in
The present systems can be made using conventional techniques and materials. Preferably, the materials are suitable for medical purposes. As discussed herein, the sleeves can be extruded or injection molded from plastic materials. The tissue penetrating member can be produced by placing an inflatable sheet around a structural element, such as a wire, and coupling the cavity defined by the inflatable sheet to a tubing lumen, or the tissue penetrating member can be produced by placing a sheet on the exterior of a plurality of struts or a coil element, which impart their own structural features.
Additional embodiments of the present systems may include markings or indicia provided on the expandable body portion to assist in determining the particular distance the sleeve has been positioned in the body. In addition, the sleeve and/or tissue penetrating member can also include other positioning facilitator elements. For example, the sleeve can include a radiopaque material, such as barium sulfate, bismuth compounds, and tungsten metals. The tissue penetrating member can include contrast media. Contrast media may be provided in the fluid used to inflate the balloon of the balloon-embodiments disclosed herein.
All references, articles, patents, applications and publications set forth above are incorporated herein by reference in their entireties.
While this invention has been described with respect to various specific examples and embodiments, it is to be understood that the invention is not limited thereto and that it can be variously practiced with the scope of the following claims. Multiple variations and modifications to the disclosed embodiments will occur, to the extent not mutually exclusive, to those skilled in the art upon consideration of the foregoing description.
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/US06/12728 | 4/4/2006 | WO | 00 | 10/1/2007 |
Number | Date | Country | |
---|---|---|---|
60668750 | Apr 2005 | US |